LED Light Spectrum Affects the Photosynthetic Performance of Houttuynia Cordata Seedlings

Wang, Zhaoqing

doi:10.11648/j.ajop.20150303.12

Cited by 15 publications

(11 citation statements)

References 24 publications

(21 reference statements)

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“…Fv/Fm is sensitive to the light conditions and therefore lower values of Fv/Fm can indicate stress via photo-inhibition. Fv/Fm is related to the quantum yield in PS II as other studies have shown similar results where Blue LEDs increased photochemical quenching whilst Red LEDs enhanced chlorophyll content despite chloroplasts being smaller [52]. The current analysis has shown that a combination of Blue (459 nm) and Red (632 nm) LED lights can promote a higher Fv/Fm than HPS or white LED lights of the same PAR output.…”

Section: Discussionsupporting

confidence: 81%

“…Both of these studies showed the low impact of green light on stomatal opening. Red and blue wavelengths are both utilized during photosynthesis by chlorophyll and secondary pigments, therefore promoting growth and development in plants [52,54]. A recent study sought to un-pick the influences of Red and Blue light on growth and photosynthetic efficiency in sweet basil and found that quantum efficiency in PSII was lower under Red/Blue LED light arrays when the Red portion of the light array was greater than double the Blue (2:1).…”

Section: Discussionmentioning

confidence: 99%

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The Growth and Development of Sweet Basil (Ocimum basilicum) and Bush Basil (Ocimum minimum) Grown under Three Light Regimes in a Controlled Environment

et al. 2019

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Light is a crucial element for plant growth and production. In areas where natural light is not sufficient for optimal plant growth and production, high pressure sodium (HPS) light sources are widely used. However, HPS lamps are considered not very electrically efficient generating high radiant heat and as a consequence, there has been a lot of interest in replacing HPS lamps with new more efficient lighting sources in the form of light-emitting diodes (LEDs). The effects of three lighting sources (White LED, Blue/Red LED and HPS) on the growth, development and on the essential oil yield and quality of sweet basil and bush basil were investigated. There was a clear advantage to the Blue/Red (452 nm and 632 nm, respectively) LED on virtually all growth and physiological parameters measured for both basil species. The HPS lighting system always performed least effectively in all comparisons. Combining increases in plant yield and increases in oil yield the Blue/Red LED array outperformed the HPS lights by a factor of approximately double, with the white LED being intermediate between these two extremes.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionmentioning

confidence: 99%

The Growth and Development of Sweet Basil (Ocimum basilicum) and Bush Basil (Ocimum minimum) Grown under Three Light Regimes in a Controlled Environment

et al. 2019

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“…Photosynthetic pigments absorb and convert the light energy into chemical energy via complex photosynthetic machinery. Blue and red light play an active role in photosynthesis and also stimulate chlorophyll and carotenoid biosynthesis (Xiao-Xue et al 2013, Wang et al 2015. In the present study, light intensity caused the largest effects on photosynthetic processes, which were manifested in elevated CO2 assimilation capacities, induction of stomata opening and transpiration, and also in the decreased ratio in the conversion of absorbed light energy to photochemistry in PS II, as demonstrated by the low Y(II) value.…”

Section: Discussionmentioning

confidence: 45%

Effects of light intensity and spectral composition on the growth and metabolism of spinach (SPINACIA OLERACEA L.)

Lőrinc¹,

Monostori²,

Végh³

et al. 2019

ABPA

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Spinach rich in proteins, minerals (Fe, K) and antioxidants (vitamin C) is often cultivated in greenhouses under artificial light. In this study, the effects of light intensity and spectral composition provided by light emitting diodes (LEDs) was studied on the yield quality and quantity of spinach. Plants were grown under 3 different light intensities (100/200/300 mol m-2 s-1) and 3 spectral compositions (white/white completed with blue or far-red) for 4 weeks. Then plant weight, leaf number and area, photosynthetic activity and pigment composition of leaves were determined. The leaf quality was characterized by measurements of protein, starch, soluble sugar and ascorbate contents of leaves. Moreover, minerals (K, Fe and NO3 ̅) were also determined. While the biomass production was mainly determined by the light intensity, the yield quality is influenced significantly by the spectral composition. When the white light was supplemented with blue, high protein and ascorbate content was achieved. When far-red was added to white light, elevated sugar and Fe accumulation was observed in the leaves, while the K content decreased. In order to reach the hight quality and quantity of food production, not only the light fluence, but also the spectral composition should be regulated.

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“…However, the yellow sample had poor result in that the absorption ranges between 0,5 to 1,0 A in the wavelength ranges between 650 to 690 nm. According to [11] [12] the light spectrum has an important role in the process of photosynthesis as in this process, chlorophyll will transmit several specific colors of light, they are the color of blue light with the wavelength ranging from 450 up to 475 nm and the color of red light ranging from 630 to 675 nm. The more light absorbed, the higher the energy for photosynthesis.…”

Section: Resultsmentioning

confidence: 99%

“…the color of blue light with the wavelength ranging from 450 to 475 nm and the color of red light ranging from 630 to 675 nm. The more light absorbed, the higher the energy for photosynthesis [11] [12].…”

Section: Introductionmentioning

confidence: 99%

The Effect of Noni Leaves’ Age Variation On the Value of Absorbance and Wavelength In Certain Color Spectrums

Mouromadhoni

Kuswanto

Asmar

2019

J. Ilmu. Pend. Fisika

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This research is experimental research. The research aims to analyze the absorbance and wavelength values on the certain color spectrum based on the age of noni leaf sample. Variation in absorption and wavelength occurs in the red spectrum ranges between 650 to 700 nm. Maximum absorption occurs in the middle of noni leaf followed by the tip of noni leaf sample but the yellow leaf sample results poor absorption. Chlorophyll a has main leaf pigment the most which occurs in the light reaction of photosynthesis. The maximum absorption which ranges between 3,5 to 4,0 A occurs in the blue spectrum ranges between 400 to 450 nm. Chlorophyll b absorbs photon energy in sun light. A wavelength ranges between 500 to 600 nm occurs in the green spectrum which has low absorption of three samples ranges 0,5 to 1,5 A. The chlorophyll reflects light of the green spectrum; therefore, it causes low absorption.

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LED Light Spectrum Affects the Photosynthetic Performance of Houttuynia Cordata Seedlings

Cited by 15 publications

References 24 publications

The Growth and Development of Sweet Basil (Ocimum basilicum) and Bush Basil (Ocimum minimum) Grown under Three Light Regimes in a Controlled Environment

The Growth and Development of Sweet Basil (Ocimum basilicum) and Bush Basil (Ocimum minimum) Grown under Three Light Regimes in a Controlled Environment

Effects of light intensity and spectral composition on the growth and metabolism of spinach (SPINACIA OLERACEA L.)

The Effect of Noni Leaves’ Age Variation On the Value of Absorbance and Wavelength In Certain Color Spectrums

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